AT516886B1 - Self-erecting and self-irritating flood protection device - Google Patents

Abstract

Flood protection device, which automatically rises in case of flood, comprises a formed with at least one cavity flood protection wall, which is in articulated connection with a support against the high water pressure body and is provided with a water side, at least in the bottom anchorage of the flood protection wall arranged seal, characterized the flood protection wall (1) is pivotally connected to a support wall (2) via two laterally arranged push rods (3), the flood protection wall (1) being articulated by a pivot (5) and the support wall (2) being articulated by a pivot ( 4) is mounted on the foundation, and wherein the articulation points (6.1, 6.2) of the push rod (3) on the flood protection wall (1) and the support wall (2) flood case are selected so that the flood protection wall (l) automatically floats and thereby to a Angle (α) pivots upward and the push rods (3) the support wall (2) is pivoted upward by an angle (β), so that the support wall (2) on the water-remote side of the flood protection wall (1) comes to rest and supports them against the water pressure.

Description

Description EP 1793043 A1 already discloses the buoyancy principle. This patent discloses a flood protection device comprising a cavity formed flood protection wall which floats automatically when flooded and rises in the protective position in which it is supported by rods against the water pressure; a seal on the water side prevents water flow through the joints.

The present invention relates to a flood protection device according to already described principle of buoyancy and is characterized in that it is a self-functioning and self-erecting flood application system. The function is also based on the principle of hydrostatic buoyancy of a suitable float at a flooding floats (Archimedes displacement principle).

The Hochwasserschutzvorrichung is also characterized in that it is designed from a vertically upright protective wall (1) which is designed as a buoyant body and even with increasing water level in the vertical position. This position is limited by a support wall (2). This support wall (2) is so articulated connected to the protective wall (1) that it rotates high together with the protective wall (1). The protective wall (1) and the supporting wall (2) are connected to each other via the articulation points (6) and two push rods (3). The articulation points (6.1 and 6.2) are positioned so that when the protective wall (1) has rotated by the angle alpha, the support wall rotates by the angle beta. The protective wall turns over pivot point (5). The support wall turns over pivot point (4).

The invention is further characterized in that the elements Stiitzwand (2) and protective wall (1) can only be manipulated by suitable tools. This will largely prevent any sabotage that could affect the function.

The invention is also characterized in that it can be raised for cleaning and service.

SUMMARY OF THE PHASES IN THE SELF-ACTIVE OPERATION OF THE HIGH WATER PROTECTION DEVICE

The present flood protection device is a self-functioning and self-erecting in the use of flood system.

The function is based exclusively on the principle of hydrostatic buoyancy of a suitable float which floats in a expected at Llber flooding liquid (Archimedean displacement principle). The process of erection is divided into essentially 4 phases.

- Device starts at a water level L of L greater U (bottom of Vorrich-device) but L small U + H aufzuschwimmen and already acts in this phase against the incoming water.

- In the second phase, the protective wall 1 has already lifted significantly. The support wall 2 has accordingly moved or rotated in the direction of the locking position according to the principle of the push rod connection.

Phase 3 begins when the hydrostatic pressure or the resulting horizontal contact forces fold the protective wall into its final position. In this case, the support wall also moves in the direction of its Aufstiitz- or locking position.

The fourth phase, that is, the static phase is reached as soon as the protective wall 1 is folded over by the resulting horizontal forces. In this phase, the protective wall remains in its position.

The seals between the individual flood protection elements by, either a continuous seal in the form of a film or a rubber mat over its entire surface

Or be installed in sections. In this case, the sealing in the region K is connected to each individual protective wall.

Thus, the device remains accessible, appropriate measures to increase the stiction are provided. For weight forces that arise during the on-site inspection, few measures have to be taken with regard to strength. The situation is different with regard to accessibility. Here, depending on the approved weight class, the height H and the cavity inclinations must be adjusted.

Auffahrrampen Or similar devices are to be provided depending on the situation. Here, the shape of the flood device may differ slightly in shape.

DESCRIPTION: FIELD OF THE INVENTION

The invention relates to a flood protection device according to the preamble of independent claim 1.

At high water or rising level, the device is independent in a vertical position and serves as a barrier against the ingress of water. The nature of the water does not play a technical role.

The technical object of the invention is to prevent flooding of the areas behind the device (GGS). The device can be mounted on a horizontal, even and straight as well as solid ground. This can be for the application sufficiently thick and solid surfaces, including, for example, asphalted or concrete roads, sidewalks or paths. If no suitable foundations are available, they must be prepared before installing the flood protection device. These foundations are to be built according to the technical requirements and specifications of the flood protection device.

The device is accessible and depending on the requirements and execution also practicable executable. For the necessary static friction of the vehicles and their contact points (wheels and tires) to the road surface or Hochwasserschutzvorrichtung- top, ensures an appropriate surface finish. The flood protection device but also, depending on requirements in the subsurface sinkable.

The flood protection device is constructed so that damage by vandalism or sabotage under normal circumstances is largely prevented. That is, a manipulation is possible only with appropriate tools.

The past has shown that, in particular due to further advancing soil sealing, intensive agricultural use of soils and not to forget due to climate change will increasingly flood in the future.

The rise of the sea level threatens meanwhile whole states.

Flood has become in some areas already the normal normality. Due to increasingly extreme weather conditions, the early warning times for flood events are also significantly reduced. STATE OF THE ART.

Flood protection systems are known in various forms. Self-erecting devices are described in extending or foldable form, (see essentially EP1793043 A1 WIDELL ERIC [CH] but also DE4437098, DE202004013493, EP1950352, DE20300565, EP0726364). Dams, walls, dam beam walls, even as mobile variants, are already on the way of the technique. Horizontal swiveling elements and systems are common. These are usually embedded in a structurally conceived substructure and therefore require a not inconsiderable preparation or processing of the foundation.

The partly used for use mobile protection devices in their establishment essentially two requirements: sufficient early warning and human or technical work to establish protective barriers.

Most flood systems are operated by external force. That is, the protective elements are oä by muscle power, by electromechanical energy or by electro-hydraulic energy. brought into their required protective position.

Systems that vertically bring themselves out of shafts by floating bodies themselves in protective position are also known. These systems are usually embedded in the ground and require more depth in their foundation than their actual height. The required foundations are accordingly technically complex.

Systems which are operated directly or indirectly by electrical energy are only partially reliable in the case of flooding. In case of failure of the electrical power supply or the electricity network actuation is only possible with additional grid-independent units. In addition, on-site electrical, hydraulic or pneumatic system parts are subject to constant maintenance in order to ensure their function in the event of an incident.

Another disadvantage is the ease of manipulation by unauthorized persons. Flood protection device such as self-erecting flood protection walls (EP 1793043), the supports from the outside or from above are easily accessible and can therefore be damaged. In case of use, this can lead to malfunction or technical failure of the flood protection device.

OBJECT OF THE INVENTION

The invention fulfills the task that the flood protection device can be built on existing Untergmnden, a flood protection device that neither pre-warning time nor manpower needed, energy-independent works and is difficult to manipulate from the outside.

SOLUTION OF THE CHALLENGES MADE

The object is achieved in that the present invention works with the help of the principle of hydrostatic buoyancy and the water level and built on this principle itself. Therefore, neither warning time nor human or technical work is required to build an effective flood barrier. The flood protection device is designed to be constructed from almost all fortified substructures.

The proposed invention is designed so that at an imminent Überflu-tung or from a certain water level <H but> U on the water side G of the flood protection system, the protective wall (1) starts to float on the water and with the rising Water level L rises even from a lying position with the help of the physical buoyancy.

If the water level L continues to increase to approximately L = 0.5 * B, the device automatically works in the end position.

In a stationary and non-active position, the protective wall (1) and the support wall (2) lie on the foundation Or are structurally recessed underground, depending on the design and Erfor-obstacle.

The invention is characterized in that the protective wall (1) consists of a buoyant in water hollow body (for example, a waterproof manufactured hollow body made of a metal) or from an otherwise buoyant in the water or floatable material (for example, dry wood) , This protective wall (1) must be designed with regard to its physical buoyancy in the water so that sufficient buoyancy forces can be developed to move or lift the push rods (3) and the support wall (2).

Around the rotatable anchoring (5), the protective wall (1) rotates upwards with increasing water level L and is directed towards.

The protective wall (1) is mechanically connected at both end sides by at least one push rod ge (3) with the support wall (2) via suitable bearing points (6.1 and 6.2). The positions of the bearing points (6.1 and 6.2) of these articulation points for the push rod (3) are positioned so that by a Nachobendrehen the protective wall (1) about the pivot point (5), the support wall (2) on the fulcrum (4) turns up.

The bearing points 6.1 and 6.2 are positioned so that when revolving the protective wall (1) a left-handed sufficiently large moments (as shown in the sketches) results.

The coordinate difference in Y of the two bearing points 6.1 and 6.2 generated when folding up the protective wall (1) the necessary moment to the support wall (2) also to turn high. The push rods (3) must be designed so that they can transmit the resulting Schubkräf te.

In the second step of the automatic activation of the flood protection device, the protective wall (1) by the dynamic pressure resulting horizontal forces against the also high-rotating Stiitzwand (2). After the folding over the protective wall (1) has rotated by the angle a in its final position. The support wall (2), which has turned by the angle β, now blocks the protective wall (1). The retaining rail (8) serves as an additional security element. The retaining rail (8) is an additional security element, but this can also be omitted depending on the application. The push rods (3) now take over the resulting tensile stresses according to the mechanical force. The push rods (3) and the bearing points 6.1 and 6.2 are designed according to the resulting forces.

The horizontal forces resulting from the dynamic pressure are introduced into the foundation through the pivot point 5 of the protective wall (1) and on the other hand via the retaining wall (2) at the pivot point (4). The fulcrums 4 and 5 are with Drehpunktniederhal- tern (9) and with appropriate anchors to the foundation test and permanently connected. The fulcrums (9) and the anchors connected to the ground are designed according to the resulting forces.

The seal is made by means of a suitable sealing material in the form of a film or mat (seal (10)). This is laid down along the entire length (1 * number of flood protection elements) of all elements of the series of flood protection devices. In this case, the seal (10) on each individual protective wall (1) in the areas K is tightly sealed or dichtverklebt.

The seal may be connected to the foundation in two ways. On the one hand in the area B by means of gluing or a longitudinal rail which is gediibelt with the seal (10) on the foundation. (See also EP 1793043 A1) The second possibility is to pull through the seal under the pivot point 5 and also to blame with a rail or suitable adhesive seal joint together with the fulcrums (9) and suitable anchors with the foundation.

The protective wall (1) is on the water side (G) in the area (B) free of design-related disabilities. This has the advantage that essentially no driving objects can be hooked, jammed or jammed on the protective wall.

After an application in which the protective wall (1) was completely folded over by the angle a, the protective wall (1) remains in an upright position.

This allows a subsequent, possibly necessary cleaning of the water side G in the area of the device area B. Also, any damage caused by the flood and thus necessary repairs to the erected barrier are more visible.

The flood protection height of the invention, that is, the height of the protective wall, is variable depending on the location and expected flood level.

Likewise, the length (I) of the individual flood protection elements can be adapted to the requirements. Due to a foundation that tends slightly towards the water side (up to a maximum of 20 °), a better buoyancy effect of the protective wall (1) can be achieved with a still flat running surface.

Loading forces caused by, for example, the driving of the device are evenly distributed by corresponding structural design or by mounting parts in the hollow space of the protective wall (1) and the Stiitzwand (2) and due to the large-area bearing of the two Slides elements into a foundation suitable for surface pressure.

The ablaut of erection is divided into essentially 4 phases.

- Device starts at a water level L of L greater U (bottom of Vorrich device) but L small U + H aufzuschwimmen and already acts in this phase against the penetrating water.

- In the second phase, the protective wall (1) has already clearly lifted. The

Stiitzwand 2 has accordingly moved according to the principle of the push rod connection in the direction of locking position or rotated.

[0053] Phase 3 begins when the hydrostatic pressure or the resulting horizontal forces fold the protective wall into its final position. In this case, the support wall also moves in the direction of its Aufstiitz- or locking position.

- The fourth phase, that is, the static phase is reached as soon as the protective wall 1 is folded over by the resulting horizontal forces. In this phase, the protective wall remains in its position.

The seals between the individual flood protection elements can be installed through, either a continuous seal in the form of a film or a rubber mat over the entire surface or in sections. The seal in the area K is connected to each individual protective wall.

In order for the device remains accessible, appropriate measures to increase the stiction are provided. For weight forces that arise during the on-site inspection, few measures have to be taken with regard to strength. The situation is different with regard to accessibility. Here, depending on the approved weight class, the height H and the cavity inclinations must be adjusted.

Auffahrrampen Or similar devices are to be provided depending on the situation. Here, the shape of the flood device may differ slightly in shape.

The invention is further characterized in that it is particularly suitable for urban use. Flood control measures in which, for example, dykes, dams, walls or other permanently installed protective elements are not possible or the necessary space is not available or which obstruct the traffic, disturbing or hindering the present invention can eliminate this problem. The proposed invention is in an inactive state on the ground and hinders the further use of a used for the installation walkway, bike path or road oä, only slightly.

The invention is characterized in that the system is varia-bel in its insertion height, this does not affect the foundation substantially.

EFFECTS OF THE INVENTION

An essential effect of the invention is that the activation works on its own and works independently of all external energy sources. In the case of high waterfall additional use of further technical aids or human labor for the construction is not necessary.

An effect of the invention is that the flood protection device can be mounted on all paved (asphalt or concrete) subfloors. The substrate only needs to be adapted to the strength requirements.

An effect consists in that support wall (2) forms a stable triangle with the protective wall (1) in the activated state. An additional support and securing of the device is not necessary. This is a particular advantage of the invention.

One effect is that those elements which make the flood protection device manipulatable or sabotable are difficult to access in the quiescent state.

An effect is that on the outside of the flood protection device are not excellent parts. This prevents a possible strangulation or distortion of flotsam.

According to the invention, the device can also be used as a partial object protection. The invention is used in partial object protection for use in driveways, passages, passages, underpasses or similar structures, between dyke or dam sections and walls, barrier elements or other dam-like elements. In this case, the elements adjacent to the device are to be adapted to the device with regard to their sealing possibilities.

FIGURES AND BRIEF DESCRIPTION OF THE DRAWING FIGURES

The subject matter of the invention is illustrated in the drawings and sketches. FIGS. 1 to 4 show the flood protection device in horizontal or inactive state and in standing or active state, respectively, in a side view and a 3D view.

The invention is characterized in that it consists of the components

Protective wall (1)

Retaining wall (2)

Push rod (3)

Fulcrum (4)

Fulcrum (5)

Rotatable articulation points (6.1) fixed, level surface (7)

Retaining rail (8)

Fulcrum hold-down (9) fastened with ground anchors Sealing (10)

On-duty or traffic-related adhesive (11).

Further terms cited in the drawings are:

Water level (L)

Waterside (G)

Water-remote site (GGS)

Area (B)

Device undercut (U)

Device height lying (H)

Foundation (F)

Water / liquid (W)

Angle of the protective wall (a)

Angle of the supporting wall (ß)

Mounting surface of the seal; Area (K)

DESCRIPTION OF THE FIGURES

FIG. 1 shows a side view of the proposed flood protection device. In this case, it is essentially clear how the protective wall 1 and the supporting wall are connected to one another via the push rod 3.

FIG. 2 shows the flood protection device in the active state or in protective position. The view illustrates the mutually dependent positions of the protective wall and the supporting wall, which are connected via the push rods. The horizontal and vertical position in articulation points 6 indicate the Aufrichtwinkel the protective wall a and the Aufrichtwinkel the support wall β. The locking takes place when the angle a> 90 degrees where the angle β is set at about 45 degrees. The force transmission of the protective wall on the support wall takes place in about half the protective height.

The sealing takes place by means of a suitable film material, which is connected in the region K and in the region B to the protective wall 1 and the substrate 7. This film covers the entire outer area of the protective wall 1 and thus prevents overflow of the flood from the side G (water side) to the side GGS (dry side).

The fulcrum holders 9 are mounted with suitable anchors against the ground. The surface must be such that it can absorb the forces caused by the back pressure.

The retaining rail 8 serves as an additional security element. APPLICATION EXAMPLES Example 1: [0074] There is a number of kilometers of hiking and biking trails in between a watercourse with a variable water level and a settlement area. This path is relatively level parallel with the expected water level. The prerequisite for a direct construction of the present invention in the existing way is that on the one hand it has a solid covering (concrete or asphalt or the like) and on the other hand also has a sufficient width.

If this is not the case, the foundation must be prepared according to the requirements.

When the foundation is prepared for construction, the flood protection device can be mounted directly. EXAMPLE 2: Road passage through an existing dam. Here an end building is erected on the left and right of the roadside. In order to continue the undisturbed passage through the road in the area of the embankment puncture is made possible, the device with the road surface at the same level sunk in the pavement. A corresponding substructure is to be prepared. Example 3: Residential district with several buildings and a partly flood level parallel road in the periphery. In this street, for example, the flood device can be used as a sidewalk. Required is a sufficiently wide and paved road.

Claims (5)

claims 1. Flood protection device, which rises automatically in case of flood, surrounds a formed with at least one cavity flood protection wall, which is in articulation with a against the high water pressure supporting body and provided with a water side, at least in the region of the ground anchorage of the flood protection wall seal , characterized in that the flood protection wall (1) via two laterally arranged push rods (3) with a support wall (2) is hingedly connected, wherein the flood protection wall (1) via a hinge with a pivot point (5) and the support wall (2) via a Joint with pivot point (4) is mounted on the foundation, and wherein the articulation points (6.1, 6.2) of the push rod (3) on the flood protection wall (1) and the supporting wall (2) are selected so that in case of flood the flood protection wall (1) automatically floats and swings upwards at an angle (a) and over the push rods the Stiitz Wall (2) by an angle (ß) is pivoted upwards, so that the support wall (2) on the side facing away from the water on the flood protection wall (1) comes to rest and this repels against the water pressure. 2. Flood protection device according to claim 1, characterized in that a retaining rail (8) provides additional security against the water pressure. 3. Flood protection device according to claim 1 to 2 is characterized in that there is a seal (10) made of weather-resistant and stretchable material on the water side (G) of the flood protection device, said sealing the pivot point (5) and the adjacent flood protection elements or Stirnseiten- covers structures and gaps between the elements and seals and is in the non-active state of the device on the lower side geschiitzten from above. 4. Flood protection device according to claim 1 to 3, characterized in that the seal (10) under the fulcrum (5) of the protective wall (1) passes through and is mounted in a common sandwich construction with the fulcrum (9) and a rail, wherein the seal in the inactive state of the protective device (A) lies flat on the ground. 5. Flood protection device according to claim 1 to 4 is characterized in that provided in the inactive state for driving and walking provided overhead surfaces of the flood protection wall (1) and having an adhesive surface. 4 sheets of drawings